The Text Throughout Describes Everything About Machine Tools. It Comprises All The Concepts, Machining Operations, Physical Principles And Their Applications With Related And Convincing Examples In A Crystal-Clear Manner.The Approach Of The Subject Has Been Narrated In Lucid Way, Which Makes The Text Interesting To Read And Easy To Understand. It Also Deals With The Workpieces And Tools Manufacturing, The Measuring And Checking Of These Parts Along With The Time Calculated During All These Processes.This Edition Particularly Envelops The Theory Of Manufacture, Which Can Help The Concerned Person, Not Only Working In Workshops But Also To Help Him In Individual Practising.The Book Is Highly Useful In Technical Institutions And Schools.
This work was originally published as four separate books; their titles, and reviewers' comments, are given below: History of the Gear-Cutting Machine: A Historical Study in Geometry and Machines "The book represents an overwhelmingly well-done job of reducing a great mass of material—scholarly references, patents, catalogs, engineering and trade journals, and machines themselves—into a logical story of development. Written with zest and relish, this vivid account presents a wealth of unusual information. The illustrations are particularly good, for many of them come from previously untapped sources." —Technology and Culture History of the Grinding Machine: A Historical Study in Tools and Precision Production "From the polished artifacts of prehistoric times Mr. Woodbury traces the development of methods, abrasives, and the machine tools which interdependently contributed to the advanced grinding techniques used today. Many fine illustrations." —The Tool Engineer History of the Milling Machine: A Study in Technical Development "Mr. Woodbury traces the evolution of milling machines from Eli Whitney's machine (circa 1820), the first miller ever built, to numerical controlled milling machines.... presented cleanly with ample detail. Fine illustration and complete bibliography are provided." —The Tool Engineer History of the Lathe to 1850: A Study in the Growth of a Technical Element of an Industrial Economy "Woodbury, who teaches the history of technology at the Massachusetts Institute of Technology, is at work on a history of machine design which promises to alter our perspectives not only in his special field but in general cultural history.... His present history of the lathe (to about 1850) absorbs the entire previous literature and goes far beyond it." —Lynn White, Jr.
Machine tools are the main production factor for many industrial applications in many important sectors. Recent developments in new motion devices and numerical control have lead to considerable technological improvements in machine tools. The use of five-axis machining centers has also spread, resulting in reductions in set-up and lead times. As a consequence, feed rates, cutting speed and chip section increased, whilst accuracy and precision have improved as well. Additionally, new cutting tools have been developed, combining tough substrates, optimal geometries and wear resistant coatings. “Machine Tools for High Performance Machining” describes in depth several aspects of machine structures, machine elements and control, and application. The basics, models and functions of each aspect are explained by experts from both academia and industry. Postgraduates, researchers and end users will all find this book an essential reference.
Acquire the Skills, Tools, and Techniques Needed to Ensure High Quality and Precision in the Design of Machined Parts! Designed for quick access on the job, Machine Tools Handbook explains in detail how to carry out basic and advanced machine tool operations and functions, providing a wealth of machine tool exercises to test and improve the performance of machinists. The tables, graphs, and formulas packed into this essential reference makes it a must-have for every machine and manufacturing workshop. Machine Tools Handbook features: Expert instructions on performing basic and advanced machine tool operations and functions Comparative tables for machine tool drives Complete guidelines for designing simple circuits for electrical automation Detailed graphs for gear design Solved examples that illustrate and prove formulas Inside This Hands-On Machine Tool Guide • Machine Tool Drives and Mechanisms • Rectilinear Drives • Drive Transmission and Manipulation • Machine Tool Elements • Dynamics of Machine Tools • Machine Tool Operation • Tool Engineering • Exercises
A proven process for machine tool selection, installation, and maintenance Written by an engineer with many years of experience in the industry, this practical guide provides a systematic approach to acquiring and setting up machine tools efficiently and cost-effectively. Machine Tools: Specification, Purchase, and Installation delivers a step-by-step plan for choosing the appropriate machine tool to meet your company's requirements and building the foundation that fits the specialized tool and the environment in which it will operate. Real-world examples and helpful checklists are included. Increase productivity, reduce equipment downtime, and save money by applying the streamlined methods presented in this valuable resource. Complete coverage of each phase of the process, including: Budgeting Specification Procurement Layout Foundation Installation Preparation Start up Maintenance
This book provides readers with the fundamental, analytical, and quantitative knowledge of machining process planning and optimization based on advanced and practical understanding of machinery, mechanics, accuracy, dynamics, monitoring techniques, and control strategies that they need to understanding machining and machine tools. It is written for first-year graduate students in mechanical engineering, and is also appropriate for use as a reference book by practicing engineers. It covers topics such as single and multiple point cutting processes; grinding processes; machine tool components, accuracy, and metrology; shear stress in cutting, cutting temperature and thermal analysis, and machine tool chatter. The second section of the book is devoted to “Non-Traditional Machining,” where readers can find chapters on electrical discharge machining, electrochemical machining, laser and electron beam machining, and biomedical machining. Examples of realistic problems that engineers are likely to face in the field are included, along with solutions and explanations that foster a didactic learning experience.
Start a successful career in machining Metalworking is an exciting field that's currently experiencing a shortage of qualified machinists—and there's no time like the present to capitalize on the recent surge in manufacturing and production opportunities. Covering everything from lathe operation to actual CNC programming, Machining For Dummies provides you with everything it takes to make a career for yourself as a skilled machinist. Written by an expert offering real-world advice based on experience in the industry, this hands-on guide begins with basic topics like tools, work holding, and ancillary equipment, then goes into drilling, milling, turning, and other necessary metalworking processes. You'll also learn about robotics and new developments in machining technology that are driving the future of manufacturing and the machining market. Be profitable in today's competitive manufacturing environment Set up and operate a variety of computer-controlled and mechanically controlled machines Produce precision metal parts, instruments, and tools Become a part of an industry that's experiencing steady growth Manufacturing is the backbone of America, and this no-nonsense guide will provide you with valuable information to help you get a foot in the door as a machinist.
Technology of Machine Tools, 8e provides state-of-the-art training for using machine tools in manufacturing technology, including up-to-date coverage of computer numerical control (CNC). It includes an overview of machine trades and career opportunities followed by theory and application. The text is structured to provide coverage of tools and measurement, machining tools and procedures, drilling and milling machines, computer-aided machining, and metallurgy. There is expanded coverage of computer-related technologies, including computer numerical control (CNC) and computer-aided design and manufacturing (CAD/CAM).
